Find the distance between centre of gravity and centre of mass of a two particle system attached to the ends of a light rod. Each particle has same mass. Length of the rod is R, where R is the radius of earth.

Mention the position of centre of mass of two particles of equal mass.

Obtain an expression for the velocity of centre of mass for n particles of system.

A pulley is attached to the celing of a lift moing upwards. Two particles are attached to the two ends of a stirng passing over the pulley. The masses of the particles are in the ration 2:1 if the acceleration of the particles is g/2, then the acceleration of the lift will be

Obtain the general expression of centre of mass for distributed n particles of system in three dimension.

Obtain an expression for the position vector of centre of mass of a system n particles in two dimension.

Obtain an expression for the position vector of centre of mass of a system of n particles in one dimension.

The small dense stars rotate about their common centre of mass as a binary system, each with a period of 1 year. One star has mass double than that of the other, while mass of the lighter star is one-third the mass of the Sun. The distance between the two stars is r and the distance of the earth from the Sun is R , find the relation between r and R .

Write the expression of centre of mass of a system of .n. particles and derive the formula of force acting on its centre of mass.

The distance between the centres of the Moon and the earth is D . The mass of the earth is 81 times the mass of the Moon. At what distance from the centre of the earth, the gravitational force will be zero?